Electricity is distributed from electrical substations to neighborhoods at 1.6×104 V . This is a 60Hz...
Electricity is distributed from electrical substations to neighborhoods at 1.6×104 V . This is a 60Hz oscillating (AC) voltage. Neighborhood transformers, seen on utility poles, step this voltage down to the 120V that is delivered to your house.
How many turns does the primary coil on the transformer have if the secondary coil has 120 turns?
No energy is lost in an ideal transformer, so the output power Pout from the secondary coil equals the input power Pin to the primary coil. Suppose a neighborhood transformer delivers 240 A at 120 V. What is the current in the 1.6×104 V line from the substation?
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Electricity is distributed from electrical substations to neighborhoods at 1.6×104 V . This is a 60Hz...
Electricity is distributed from electrical substations to neighborhoods at 1.3×104 V . This is a 60Hz...
Electricity is distributed from electrical substations to neighborhoods at 1.3×104 V . This is a 60Hz oscillating (AC) voltage. Neighborhood transformers, seen on utility poles, step this voltage down to the 120Vthat is delivered to your house. Express your answer using two significant figures. Q1: How many turns does the primary coil on the transformer have if the secondary coil has 140 turns? Q2: No energy is lost in an ideal transformer, so the output power Pout from the secondary...
0Electricity is distributed from electrical substations to neighborhoods at 1.6×104 V . This is a 60Hzoscillating...
0Electricity is distributed from electrical substations to neighborhoods at 1.6×104 V . This is a 60Hzoscillating (AC) voltage. Neighborhood transformers, seen on utility poles, step this voltage down to the 120V that is delivered to your house. a,) How many turns does the primary coil on the transformer have if the secondary coil has 150 turns? b.) No energy is lost in an ideal transformer, so the output power Pout from the secondary coil equals the input power Pin to...
Electricity is distributed from electrical substations to neighborhoods at 1.4x104 V. This is a 60Hz oscillating...
Electricity is distributed from electrical substations to neighborhoods at 1.4x104 V. This is a 60Hz oscillating (AC) voltage. Neighborhood transformers, seen on utility poles, step this voltage down to the 120V that is delivered to your house. Part A How many turns does the primary coil on the transformer have if the secondary coil has 150 turns? Express your answer using two significant figures. VA - ? neprim turns Submit Request Answer Part B No energy is lost in an...
The outlet voltage inside a house is 120V, but the voltage at the power line that...
The outlet voltage inside a house is 120V, but the voltage at the power line that supplies the neighborhood is much higher. A transformer between the power line and the house has 5000 turns in the primary coil and 500 turns in the secondary coil. What is the voltage of the power line supplying electricity to the neighborhood?
Can you help me solve this problem and show the steps? The local transformer shown below...
Can you help me solve this problem and show the steps?
The local transformer shown below provides the last voltage stepdown in a power distribution system. A common sight on utility poles in residential areas, it is a single-phase transformer that typically has a 13.8-kV rms line to neutral on its primary coil, and a center tap secondary coil provides both 120 V rms and 240 V rms to service several residences. A typical example of this transformer is shown...
Suppose there are two transformers between your house and the high-voltage transmission line that distributes the...
Suppose there are two transformers between your house and the high-voltage transmission line that distributes the power. In addition, assume your house is the only one using electric power. At a substation the primary of a step-down transformer (turns ratio = 1:24) receives the voltage from the high-voltage transmission line. Because of your usage, a current of 62.5 mA exists in the primary of the transformer. The secondary is connected to the primary of another step-down transformer (turns ratio =...
2. Figure 5 depicts how power is distributed from the power company to their customers through...
2. Figure 5 depicts how power is distributed from the power company to their customers through a combination of two transformers and a transmission line The transmission line is shown to have a resistance equal to 22. N, and N2 represent the number of turns on the primary or the secondary of the two transformers. İp is the current provided by the power company iis the current through the transmission line The power company provides 120v, 60 Hz to the...
Your TV's screen uses 4800 (V) of voltage to operate. To provide 4800 (V), inside your...
Your TV's screen uses 4800 (V) of voltage to operate. To provide 4800 (V), inside your TV there is a transformer that converts wall outlet of 120 (V) to 4800 (V) reaching to the TV screen. The secondary coil of this transformer has 9200 turns. Your TV's screen connected to secondary coil of transformer uses 240 (W) of power. A) Calculate current in secondary coil. B) Is this transformer a step-up or a step-down transformer? C) What is the number...
Your TV's screen uses 4800 (V) of voltage to operate. To provide 4800 (V), inside your...
Your TV's screen uses 4800 (V) of voltage to operate. To provide 4800 (V), inside your TV there is a transformer that converts wall outlet of 120 (V) to 4800 (V) reaching to the TV screen. The secondary coil of this transformer has 9200 turns. Your TV's screen connected to secondary coil of transformer uses 240 (W) of power. A) Calculate current in secondary coil. B) Is this transformer a step-up or a step-down transformer? C) What is the number...
Your TV's screen uses 4800 (V) of voltage to operate. To provide 4800 (V), inside your...
Your TV's screen uses 4800 (V) of voltage to operate. To provide 4800 (V), inside your TV there is a transformer that converts wall outlet of 120 (V) to 4800 (V) reaching to the TV screen. The secondary coil of this transformer has 9200 turns. Your TV's screen connected to secondary coil of transformer uses 240 (W) of power. A) Calculate current in secondary coil. B) Is this transformer a step-up or a step-down transformer? C) What is the number...
Electricity is distributed from electrical substations to neighborhoods at 1.4x104 V. This is a 60Hz oscillating (AC) voltage. Neighborhood transformers, seen on utility poles, step this voltage down to the 120V that is delivered to your house. Part A How many turns does the primary coil on the transformer have if the secondary coil has 150 turns? Express your answer using two significant figures. VA - ? neprim turns Submit Request Answer Part B No energy is lost in an...
Can you help me solve this problem and show the steps?
The local transformer shown below provides the last voltage stepdown in a power distribution system. A common sight on utility poles in residential areas, it is a single-phase transformer that typically has a 13.8-kV rms line to neutral on its primary coil, and a center tap secondary coil provides both 120 V rms and 240 V rms to service several residences. A typical example of this transformer is shown...
2. Figure 5 depicts how power is distributed from the power company to their customers through a combination of two transformers and a transmission line The transmission line is shown to have a resistance equal to 22. N, and N2 represent the number of turns on the primary or the secondary of the two transformers. İp is the current provided by the power company iis the current through the transmission line The power company provides 120v, 60 Hz to the...
Your TV's screen uses 4800 (V) of voltage to operate. To provide 4800 (V), inside your TV there is a transformer that converts wall outlet of 120 (V) to 4800 (V) reaching to the TV screen. The secondary coil of this transformer has 9200 turns. Your TV's screen connected to secondary coil of transformer uses 240 (W) of power. A) Calculate current in secondary coil. B) Is this transformer a step-up or a step-down transformer? C) What is the number...
Your TV's screen uses 4800 (V) of voltage to operate. To provide 4800 (V), inside your TV there is a transformer that converts wall outlet of 120 (V) to 4800 (V) reaching to the TV screen. The secondary coil of this transformer has 9200 turns. Your TV's screen connected to secondary coil of transformer uses 240 (W) of power. A) Calculate current in secondary coil. B) Is this transformer a step-up or a step-down transformer? C) What is the number...
Your TV's screen uses 4800 (V) of voltage to operate. To provide 4800 (V), inside your TV there is a transformer that converts wall outlet of 120 (V) to 4800 (V) reaching to the TV screen. The secondary coil of this transformer has 9200 turns. Your TV's screen connected to secondary coil of transformer uses 240 (W) of power. A) Calculate current in secondary coil. B) Is this transformer a step-up or a step-down transformer? C) What is the number...
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